LIGHT GUIDE HAVING A PARTIALLY COLLIMATING INPUT FACE
A light guide extending in a main direction and including an inlet face for the light emitted by a light source, the inlet face being contoured to form a collimator. The light guide includes a face for guiding the light, a light outlet face, and a face for decoupling the light towards the outlet face, the decoupling face being transversely opposite to the outlet face. At least one portion of the profile of the inlet face is constant in a transverse direction so as not to collimate the light in a longitudinal plane including the transverse direction but in a longitudinal plane perpendicular to the transverse direction.
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The invention relates to the field of lighting and light signaling, especially for automotive vehicles.
PRIOR ARTIn various light-based applications, especially in the field of light-based signaling, light guides are commonly used. They have the advantage of being able to bring light to confined places, at a distance from the light source. They also allow light to be diffused in a continuous and homogeneous manner following curved profiles. To that end, it is important to ensure controlled propagation of the light through the guide.
The published patent document FR 2 888917 A discloses optical guides provided, at their entrance faces, with collimators, in particular in the form of Fresnel lenses, which are rotationally symmetrical. These collimators allow the light to propagate along the main direction of the guide in order to reach an exit face, in particular of lenticular type at the distal end of the guide. The use of such collimators for an optical guide with lateral decoupling and exit faces is not suitable because the light propagating longitudinally will fail to encounter the decoupling face and, consequently, the exit face.
The published patent document EP 1 739 468 A1 discloses an optical guide with a particular entrance face designed to make the light more homogeneous at the start of the guide, that is to say close to the entrance face. The entrance face has regions of total reflection that are configured to reflect the light at large angles with respect to the main direction of the guide, so as to favor reflections off the guide face of the guide and thus ensure a certain level of homogeneity of light close to the entrance face. These measures are of interest when the exit face or one of the light exit faces is close to the entrance face. They are no longer useful after a certain distance from the entrance face.
SUMMARY OF THE INVENTIONThe object of the invention is to overcome at least one of the drawbacks of the aforementioned prior art. More particularly, the object of the invention is to allow a light guide to illuminate a lateral exit face in a homogeneous manner and to do so in particular over a great length.
The subject of the invention is a light guide made of transparent or translucent material, extending in a main direction and comprising an entrance face for the light emitted by a light source, said entrance face being profiled to form a collimator; a guide face for guiding the light through the transparent or translucent material by total internal reflection; a light exit face; and a decoupling face for decoupling the light toward the exit face by means of reflection facets, said decoupling face being transversely opposite the exit face. According to the invention, at least one portion of the entrance face is a three-dimensional surface formed by translating a two-dimensional planar profile in a transverse direction, referred to as a portion of constant profile, so as not to collimate the light in a longitudinal plane comprising the transverse direction and to collimate in a longitudinal plane perpendicular to said transverse direction.
The two-dimensional planar profile may also be called the generator profile.
The entrance face is frontal and the guide, decoupling and exit faces are lateral.
The light guide has a cross section with a closed and rounded, preferably circular or oval, contour.
Given that the cross section of the light guide has a closed and rounded contour, it is understood that the portion of constant profile may vary from when it is adjacent to the contour of the entrance face. In other words, the portion of constant profile is constant along the transverse direction between the limits of said profile which varies along the transverse direction taking into account the closed and rounded contour of the entrance face. Stated otherwise, said portion has a constant basic shape, which is more or less truncated depending on the shape of said contour.
According to one advantageous embodiment of the invention, the transverse direction is perpendicular to the main direction.
According to one advantageous embodiment of the invention, the transverse direction corresponds to a direction of opposition between the decoupling face and the exit face. The direction of opposition in question passes through a center of the decoupling face and a center of the exit face.
According to one example, the light guide may have a cross section that allows the light rays deflected or reflected by the decoupling face to directly reach the exit face without being reflected by the other faces of the light guide. In other words, the path of said deflected or reflected light rays is a direct path from the coupling face to the exit face. Thus, said rays are not reflected off the other faces of the guide, which makes it possible to prevent the loss of some of these rays and therefore to have most of these rays reach the exit face.
By way of example, the cross section has a width, considered in the transverse direction, substantially equal to the thickness, considered in a direction perpendicular to the transverse direction and to the main direction. What is meant here by “substantially equal” is equality to within +/−10%.
By way of example, the cross section is generally circular or oval, with a closed and rounded contour.
According to one advantageous embodiment of the invention, the entrance face is formed from a general profile comprising the two-dimensional planar profile. Said two-dimensional planar profile has a height that corresponds to at least 50% of the maximum height of said general profile, said heights being considered in a direction perpendicular to said transverse direction.
According to one advantageous embodiment of the invention, the entrance face is formed from a general profile comprising the two-dimensional planar profile. Said two-dimensional planar profile has a height that corresponds to 100% of the maximum height of said general profile, said heights being considered in a direction perpendicular to said transverse direction.
According to one advantageous embodiment of the invention, the entire entrance face is constant along a transverse direction. In other words, the generator profile constitutes the general profile forming the entrance face.
According to one advantageous embodiment of the invention, the portion of constant profile of the entrance face comprises a convex central portion that is configured to refract the light from the light source incident on said central portion.
According to one advantageous embodiment of the invention, the portion of constant profile of the entrance face comprises two lateral portions each forming a kink with a proximal region configured to refract the light from the light source incident on said proximal portion and a distal region configured to reflect, by total internal reflection, the light refracted by said proximal region.
According to one advantageous embodiment of the invention, the portion of constant profile has said constancy over only part of the total extent of the entrance face, considered in said transverse direction.
According to one advantageous embodiment of the invention, the portion of constant profile has said constancy over the whole of the total extent of the entrance face, considered in said transverse direction.
According to one advantageous embodiment of the invention, the portion of constant profile corresponds to 50% or more of the entrance face.
According to one advantageous embodiment of the invention, the exit face extends along the main direction and has a height shorter than or equal to 30% of an average diameter of the light guide. What is meant by average diameter is an arithmetic mean, over one revolution, of the diameter of the cross section of the optical guide.
According to one advantageous embodiment of the invention, the decoupling face is opposite the exit face with respect to the main direction.
The measures of the invention are advantageous in that they make it possible to optimize the optical yield by reducing the distance traveled by the collimated light portion and thereby reduce losses by absorption in the transparent or translucent material of the optical guide. This portion of the light is then useful for illuminating a distal portion of the exit face. The measures of the invention are thus particularly advantageous for particularly long light guides, such as, for example, for a vehicle third brake light function extending across the entire width of said vehicle.
In the present disclosure and in particular in the following description, the concept of main direction of the light guide is to be understood at the location of the light guide to which reference is made. This nuance is important for non-rectilinear light guides, because this direction changes along the light guide. Thus, the concept of light guide refers to an optical part capable of guiding light by total internal reflection of this light, for example from an entrance region to an exit region.
The light guide 2 is an optical element made of transparent or translucent material extending along a main direction 4, it being understood that this main direction 4 is not necessarily rectilinear. The light guide 2 has a generally circular or oval cross section, forming a closed and rounded contour. The light guide 2 comprises, at a front end, an entrance face 6 for the light produced by a light source 8, represented schematically by a point, arranged facing said entrance face 6. The latter has a profile that is specially designed to collimate a portion of the light incident on said face. This profile will be described in detail with reference to
The entrance face 6, just described, has the particular feature of the shape of its profile being the same along a transverse direction 18, in this case the direction of opposition 16 between the decoupling 12 (
If the entrance face formed a complete or perfect collimator, that is to say a collimator such that all or almost all of the light entering the optical guide propagates parallel to the main direction of the optical guide, there would be no reflection and the decoupling face could not reflect a portion of the light toward the exit face. For these reasons, only a portion of the light is collimated, thereby making it possible to reduce the losses by absorption precisely of this portion of the light intended to supply a distal portion of the light guide. It should be noted in the case of a perfectly rectilinear light guide, this collimated portion of the light will, from a certain distance of propagation and because of imperfect collimation and the light guide, be incident on the guide face and/or the decoupling face and undergo reflections there. In other words, the partial collimation of the light entering the optical guide will delay the successive reflections off the guide face and off the decoupling face for a portion of the light.
It can be seen that the light emitted by the light source 8, incident on the central portion 6.1 of the convex profile of the entrance face, is refracted so as to be parallel to the main direction 4. The rays in question form a cone centered on the light source 8, oriented along the main direction 4 and with an opening angle larger than 70° and/or smaller than 90°.
It can also be seen that the light emitted by the light source 8, incident on the lateral portions 6.2 of the profile of the entrance face 6, are refracted and then reflected along directions parallel to the main direction 4. Each of the lateral portions 6.2 forms a kink with a proximal region 6.2.1 configured to refract the light from the light source incident on said proximal portion and a distal region 6.2.2 configured to reflect, by total reflection, the light refracted by said proximal region.
It can be seen that all of the rays incident on the central portion 6.1 of the entrance face 6, and more precisely on the line of said central portion 6.1 corresponding to the transverse direction 18 along which the profile of the entrance face is constant, are refracted and then reflected by the guide face 10. These rays are not collimated and may participate in the illumination of a proximal portion of the exit region. Here, the term “constant” refers to the shape of the profile of the entrance face being constant along the transverse direction.
In the embodiment just described, the effective direction of collimation is angularly offset with respect to the direction of opposition of the decoupling and exit regions, in this case by 90° since the transverse direction in which the profile of the entrance face is constant is coincident with the direction of opposition of the decoupling and exit regions. Such a configuration is advantageous in that the rays close to the longitudinal plane perpendicular to the transverse direction in which the profile of the entrance face is constant, undergoing approximate collimation, will be able to propagate via successive reflections off the guide face without interference with the decoupling and exit faces, at least at the beginning of the optical guide. After a certain distance along the optical guide, the successive reflections produce shifts that have the effect of mixing the rays and allowing them to encounter the decoupling face and then the exit face. However, it is possible to shift the direction of collimation with respect to that of the embodiment described above.
In general, depending on the effective length of the light guide and the illumination needs of the exit face, the entrance face may be configured to collimate a greater or lesser portion of the light emitted and incident on the entrance face.
By way of example, it is possible to provide an entrance face of which a portion forms a collimator with a constant or near-constant profile around the main direction over a given sector (for example 180°) and, next to that, a constant profile along a transverse direction. In other words, the entrance face may have one portion, for example a half, which corresponds to a conventional half-collimator and a remaining portion, in this case the other half, which corresponds to the half of the entrance face of the embodiment of
Again by way of example, it is possible to provide an entrance face of which only a portion of the profile is constant along the transverse direction, called the portion of constant profile, the rest of the profile being able to remain constant by rotation about the main direction. With reference to
Claims
1. A light guide made of transparent or translucent material, extending in a main direction and comprising:
- an entrance face for the light emitted by a light source, said entrance face being profiled to form a collimator;
- a guide face for guiding the light through the transparent or translucent material by total internal reflection;
- a light exit face; and
- a decoupling face for decoupling the light toward the exit face by means of reflection facets, said decoupling face being transversely opposite to the exit face;
- wherein at least one portion of the entrance face is a three-dimensional surface formed by translating a two-dimensional planar profile in a transverse direction, referred to as a portion of constant profile, so as not to collimate the light in a longitudinal plane comprising the transverse direction and to collimate in a longitudinal plane perpendicular to said transverse direction.
2. The light guide as claimed in claim 1,
- wherein the transverse direction perpendicular to the main direction.
3. The light guide as claimed in claim 1, wherein the transverse direction corresponds to a direction of opposition between the decoupling face and the exit face.
4. The light guide as claimed in claim 1, wherein the entrance face is formed from a general profile comprising the two-dimensional planar profile and in that said two-dimensional planar profile has a height that corresponds to at least 50% of the maximum height of said general profile, said heights being considered in a direction perpendicular to said transverse direction.
5. The light guide as claimed in claim 1, wherein the entrance face is formed from a general profile comprising the two-dimensional planar profile and in that said two-dimensional planar profile has a height that corresponds to 100% of the maximum height of said general profile, said heights being considered in a direction perpendicular to said transverse direction.
6. The light guide as claimed in claim 1, wherein the portion of constant profile of the entrance face comprises a convex central portion that is configured to refract the light from the light source incident on said central portion.
7. The light guide as claimed in claim 6, wherein the portion of constant profile of the entrance face comprises two lateral portions each forming a kink with a proximal region configured to refract the light from the light source incident on said proximal portion and a distal region configured to reflect, by total internal reflection, the light refracted by said proximal region.
8. The light guide as claimed in claim 1, wherein the portion of constant profile has said constancy over only part of the total extent of the entrance face, considered in said transverse direction.
9. The light guide as claimed in claim 1, wherein the portion of constant profile has said constancy over the whole of the total extent of the entrance face, considered in said transverse direction.
10. The light guide as claimed in claim 1, wherein the exit face extends along the main direction and has a height shorter than or equal to 30% of an average diameter of the light guide.
11. The light guide as claimed in claim 1, wherein the decoupling face is opposite the exit face with respect to the main direction.
12. The light guide as claimed in claim 2, wherein the transverse direction corresponds to a direction of opposition between the decoupling face and the exit face.
13. The light guide as claimed in claim 2, wherein the entrance face is formed from a general profile comprising the two-dimensional planar profile and in that said two-dimensional planar profile has a height that corresponds to at least 50% of the maximum height of said general profile, said heights being considered in a direction perpendicular to said transverse direction.
14. The light guide as claimed in claim 2, wherein the entrance face is formed from a general profile comprising the two-dimensional planar profile and in that said two-dimensional planar profile has a height that corresponds to 100% of the maximum height of said general profile, said heights being considered in a direction perpendicular to said transverse direction.
15. The light guide as claimed in claim 2, wherein the portion of constant profile of the entrance face comprises a convex central portion that is configured to refract the light from the light source incident on said central portion.
16. The light guide as claimed in claim 2, wherein the portion of constant profile has said constancy over only part of the total extent of the entrance face, considered in said transverse direction.
17. The light guide as claimed in claim 2, wherein the portion of constant profile has said constancy over the whole of the total extent of the entrance face, considered in said transverse direction.
18. The light guide as claimed in claim 2, wherein the exit face extends along the main direction and has a height shorter than or equal to 30% of an average diameter of the light guide.
19. The light guide as claimed in claim 2, wherein the decoupling face is opposite the exit face with respect to the main direction.
20. The light guide as claimed in claim 3, wherein the entrance face is formed from a general profile comprising the two-dimensional planar profile and in that said two-dimensional planar profile has a height that corresponds to at least 50% of the maximum height of said general profile, said heights being considered in a direction perpendicular to said transverse direction.
Type: Application
Filed: Dec 18, 2020
Publication Date: Jan 19, 2023
Patent Grant number: 11781727
Applicant: VALEO VISION BELGIQUE (Meslin L'Eveque)
Inventor: Christophe VALOIS (Bobigny)
Application Number: 17/787,008